间歇性低压低氧与连续性低压低氧对大鼠血液动力学作用的比较(英文)

本研究旨在探讨并比较慢性间歇性低压低氧（intermitten thypobaric hypoxia,IHH）和慢性连续性低压低氧（continuous hypobaric hypoxia,CHH）对大鼠血液动力学作用的影响。40只成年Sprague—Dawley大鼠随机分为5组：对照组（CON）,28天IHH处理组（IHH28）,42天IHH处理组（IHH42）,28天CHH组（CHH28）和42天CHH组（CHH42）。IHH火鼠于低压氧舱分别接受28或42天模拟5000m海拔高度低氧（11．1％O2）处理、每天6h。CHH处理大鼠生活在低压氧舱环境中,除每天半小时常氧供食、供水和清洁外,其余时间均分别接受时程为28或42天的模拟5000m海拔高度低氧（11．1％O2）处理。每周定时测定大鼠体重。通过导管法测定基础常氧和急性低氧状态下的血液动力学,包括半均动脉压（meanartery blood pressure,MAP）、心率（heartrate,HR）、左审收缩峰压（1eft ventricular systolic pressure,LVSP）、正负左率最人压力变化速率（maximum change rate of left ventricular pressure,±LVdP／dtmax）。通过生物化学方法测定大鼠心肌超氧化物岐化酶活性和丙二醛含量。并分别测定全心、左心室和右心室重量。结果显示：（1）CHH42大鼠基础HR和MAP低于CON,IHH和CHH28大鼠（P〈0．05）。（2）IHH大鼠表现出明显的抗心肌缺氧／复氧损伤作用,表现为急性低氧状态下的HR、MAP、LVSP和＋LVdP/dtmax,改变明显低于CON大鼠（P〈0．05）;CHH大鼠表现出更为明显的抗急性低氧心脏保护作用,表现为急性低氧的HR、MAP、LVSP和±LVdP/dtmax;改变明显低于CON和IHH火鼠（P〈0．05）,但出现复氧损伤作用,表现为复氧过程中血液动力学的恢复明显低于CON和IHH大鼠（P〈0．05）。（3）与CON大鼠相比较,IHH和CHH大鼠心肌抗氧化能力明显增强（P〈0．05,P〈0．01）。（4）与IHH和CON大鼠相比较,CHH大鼠表现明显的右心室肥厚（P〈0．01）。结果表明,IHH可诱导有效的心脏保护作用,而无明显的不良反应,因而具有潜在的实际应用价值。     

Preservation of TSPO by chronic intermittent hypobaric hypoxia confers antiarrhythmic activity

Abnormal activation of mitochondrial translocator protein (TSPO) contributes to arrhythmogenesis during cardiac metabolic compromise; however, its role in the antiarrhythmic activities of chronic hypoxia adaptation remains unclear. Our results demonstrated that 80% of normoxic rats developed ischaemic VF, whereas this condition was seldom observed in rats with 14 days of chronic intermittent hypobaric hypoxia (CIHH). TSPO stimulation or inhibition affected the arrhythmias incidence in normoxic rats, but did not change the CIHH‐mediated antiarrhythmic effects. Abrupt and excessive elevation of TSPO activity was positively linked to ischaemic VF, and CIHH preserved TSPO activity during ischaemia. The preservation of TSPO activity by CIHH also contributed to the maintenance of intracellular Ca homeostasis. These results suggest that the blunt sensitivity of TSPO to ischaemic stress may be responsible for the antiarrhythmic effects by CIHH.     

慢性间歇性低压低氧对大鼠动脉血管收缩功能的影响

本研究旨在探讨慢性间歇性低压低氧(chronicintermittent hypobaric hypoxia,CIHH)对大鼠胸主动脉和肺动脉收缩功能的影响及其机制.雄性Sprague-Dawley大鼠随机分为4组:CIHH处理14天组(CIHH 14)、28天组(CIHH 28)、42天组(CIHH 42)和对照组(...     

Facilitation of chronic intermittent hypobaric hypoxia on carotid sinus baroreflex in anesthetized rats

Our previous study showed that chronic intermittent hypobaric hypoxia (CIHH) could prevent decreases in systemic arterial blood pressure (SABP) during acute hypoxia. However, the mechanism was not clear. The purpose of the present study was to observe whether the carotid sinus baroreflex (CSB) was involved in the antagonizing effect of CIHH on SABP decrease induced by acute hypoxia and to explore the underlying mechanism using perfusion technique in rat isolated carotid sinus area. After 14-day and 28-day CIHH exposure, the CSB in rats was enhanced markedly, manifesting as increases in PS and RD, and decreases in TP and SP. This facilitation of CSB was partly abolished by Glibenclamide (Gli, 10 μM), a K ATP channel blocker, but was not influenced by L-NAME (100 μM), a nitric oxide synthase (NOS) inhibitor. The results of the study suggested that CIHH facilitated CSB through opening the K ATP channels in carotid sinus of anesthetic rats and might be one of mechanisms of CIHH keeping SABP homeostasis during acute hypoxia.     

间歇低压低氧预处理对心肌缺血／再灌注损伤及ZFP580表达的影响

目的：探讨间歇性低压低氧（IHH）预处理对大鼠心肌缺血／再灌注（I/R）损伤后血清中心肌酶、心肌梗死的影响及锌指核转录因子ZFP580发挥的作用。方法：32只雄性Wistar大鼠随机分为IHH预处理组和常氧对照组（n=16）。IHH组大鼠置于模拟海拔高度为5000m的低压氧舱中,每天6h,持续42d。两组大鼠经结扎冠状动脉左前降支建立心肌I/R损伤模型后,检测血清中乳酸脱氢酶（LDH）活性及肌酸磷酸肌酶同功酶（CK-MB）浓度,并利用Western blot方法观察各组大鼠心肌组织中ZFP580的表达情况。每组另外8只大鼠经心肌酞菁蓝-TIC染色后比较心肌梗死面积。培养大鼠H9c2心肌细胞,利用慢病毒介导的基因转染实验获得高表达ZFP580的心肌细胞,并进行心肌细胞模拟缺血／再灌注（SI/）损伤实验。利用Annexin V-PE／7-AAD柒色及流式细胞术检测H9c2心肌细胞的凋亡情况。结果：IHH预处理能明显减少心肌I／R损伤后IDH、CK-MB漏出至血清,并明显缩小心肌梗死面积。大鼠经IHH预处理后心肌组织中ZFP580的表达上调,IHH预处理明显上调心肌L／R损伤后心肌组织中ZFP580的表达。高表达ZFP580的H9c2心肌细胞在STIR损伤后细胞凋亡率明显下降。结论：IHH预处理对于心肌I／R损伤具有明显细胞保护作用,其上调的ZFPS80表达具有减少心肌细胞凋亡的作用,ZFP580可能作为心肌细胞内源性抗凋亡分子之一,参与IHH预处理抗心肌I／R损伤的过程。     

Thyroid function during intermittent exposure to hypobaric hypoxia

Circulatory levels of triiodothyronine (T₃) and thyroxine (T₄) and their kinetics were studied in rabbits exposed to intermittent hypobaric hypoxia (5200 m, 395 mm Hg,PO₂ 83 mm Hg) 6 h daily for 5 weeks in a decompression chamber maintained at room temperature of 22°–24° C. Kinetics of T₃ and T₄ were studied on days 21 and 28 of hypoxic exposure. The T₃ and T₄ values were found to be significantly lower on day 8 of exposure to hypoxia compared to the pre-exposure values. The decreased levels were maintained throughout the entire period of hypoxic stress. The metabolic clearance rate, production rate, distribution space and extrathyroidal T₃ and T₄ pools were significantly decreased in animals under hypoxic stress compared to the control animals. The decline in thyroid hormone levels and their production in rabbits under hypoxic stress indicate an adaptive phenomenon under conditions of low oxygen availability.     

间歇性低压低氧通过促进细胞凋亡抗大鼠胶原诱导性关节炎

本文旨在研究慢性间歇性低压低氧(chronic intermittent hypobaric hypoxia,CIHH)对大鼠胶原诱导性关节炎(collagen-induced arthritis,CIA)影响.雄性成年Sprague-Dawley大鼠50只,随机分为5组:CIHH预处理组(Pre-T)、预处理对照组(...     

Enhancement of Na/K pump activity by chronic intermittent hypobaric hypoxia protected against reperfusion injury

Chronic intermittent hypobaric hypoxia (CIHH) has been shown to attenuate intracellular Na(+) accumulation and Ca(2+) overload during ischemia and reperfusion (I/R), both of which are closely related to the outcome of myocardial damage. Na/K pump plays an essential role in maintaining the equilibrium of intracellular Na(+) and Ca(2+) during I/R. It has been shown that enhancement of Na/K pump activity by ischemic preconditioning may be involved in the cardiac protection. Therefore, we tested whether Na/K pump was involved in the cardioprotection by CIHH. We found that Na/K pump current in cardiac myocytes of guinea pigs exposed to CIHH increased 1.45-fold. The K(1) and f(1), which reflect the portion of α(1)-isoform of Na/K pump, dramatically decreased or increased, respectively, in CIHH myocytes. Western blot analysis revealed that CIHH increased the protein expression of the α(1)-isoform by 76%, whereas the protein expression of the α(2)-isoform was not changed significantly. Na/K pump current was significantly suppressed in simulated I/R, and CIHH preserved the Na/K pump current. CIHH significantly improved the recovery of cell length and contraction during reperfusion. Furthermore, inhibition of Na/K pump by ouabain attenuated the protective effect afforded by CIHH. Collectively, these data suggest that the increase of Na/K pump activity following CIHH is due to the upregulating α(1)-isoform of Na/K pump, which may be one of the mechanisms of CIHH against I/R-induced injury.     

Metabolic effects of cyanate on mice at sea level and in chronic hypobaric hypoxia

In order to evaluate the toxic effects of Sodium Cyanate (NaOCN), it was orally administered to growing mice at sea level (SL-CN) and to mice chronically exposed to intermittent hypobaric hypoxia (IHH-CN). The effects on body weight, in-vivo O2 consumption (VO2) and the respiratory function of liver mitochondria were evaluated. At sea level, the animals on cyanate lost weight in contrast with the controls that gained weight. When exposed to IHH, the controls lost weight and the animals on cyanate regained weight. After 2 months observation the weights of the IHH-CN and IHH-C were similar. The VO2 after one month of treatment was similar in the SL-C and in the SL-CN but it was lower in the IHH-CN when compared with IHH-C. The substrate-stimulated respiration of isolated liver mitochondria (ST4) was not affected by NaOCN, but the ADP-stimulated respiration (ST3) was reduced. The ratio ST3/ST4 (RCR) was also lower. These changes were present in both SL and in IHH and were much larger after three months of treatment. The toxic effects of chronic administration of NaOCN are discussed.     

Differential effects of chronic hypoxia and intermittent hypocapnic and eucapnic hypoxia on pulmonary vasoreactivity.

Intermittent hypoxia (IH) resulting from sleep apnea can lead to pulmonary hypertension (PH) and right heart failure, similar to chronic sustained hypoxia (CH). Supplemental CO(2), however, attenuates hypoxic PH. We therefore hypothesized that, similar to CH, IH elicits PH and associated increases in arterial endothelial nitric oxide synthase (eNOS) expression, ionomycin-dependent vasodilation, and receptor-mediated pulmonary vasoconstriction. We further hypothesized that supplemental CO(2) inhibits these responses to IH. To test these hypotheses, we measured eNOS expression by Western blot in intrapulmonary arteries from CH (2 wk, 0.5 atm), hypocapnic IH (H-IH) (3 min cycles of 5% O(2)/air flush, 7 h/day, 2 wk), and eucapnic IH (E-IH) (3 min cycles of 5% O(2), 5% CO(2)/air flush, 7 h/day, 2 wk) rats and their respective controls. Furthermore, vasodilatory responses to the calcium ionophore ionomycin and vasoconstrictor responses to the thromboxane mimetic U-46619 were measured in isolated saline-perfused lungs from each group. Hematocrit, arterial wall thickness, and right ventricle-to-total ventricle weight ratios were additionally assessed as indexes of polycythemia, arterial remodeling, and PH, respectively. Consistent with our hypotheses, E-IH resulted in attenuated polycythemia, arterial remodeling, RV hypertrophy, and eNOS upregulation compared with H-IH. However, in contrast to CH, neither H-IH nor E-IH increased ionomycin-dependent vasodilation. Furthermore, H-IH and E-IH similarly augmented U-46619-induced pulmonary vasoconstriction but to a lesser degree than CH. We conclude that maintenance of eucapnia decreases IH-induced PH and upregulation of arterial eNOS. In contrast, increases in pulmonary vasoconstrictor reactivity following H-IH are unaltered by exposure to supplemental CO(2).     

Effect of short-term or intermittent hypobaric hypoxia on plasma lipids in young rats

Changes in the level of plasma lipids (cholesterol, fatty acids and lipoproteins) were followed in young rats exposed once or repeatedly to hypobaric hypoxia. A single exposure to hypoxia increased the level of LDL lipoproteins but did not influence the concentration of cholesterol and fatty acids in 18-day-old rats. Repeated exposure to hypobaric hypoxia caused a statistically significant increase in the concentration of cholesterol, fatty acids, chylomicra, low density beta-lipoproteins (LDL) and very-low-density beta-lipoproteins (VLDL) in 18-day-old rats, while the level of high-density alpha-lipoproteins (HDL) decreased. In animals that had been repeatedly exposed to hypoxia in their youth, a significant decrease of the LDL lipoprotein fraction was observed at the age of 108 days.     

间歇性低压低氧对过氧化氢心肌细胞损伤的保护作用

目的:观察慢性间歇性低压低氧对过氧化氢所致心肌细胞损伤的保护作用及其机制。方法:雄性豚鼠20只,随机分为两组(n=10):对照组(non-IHH)、低氧组(IHH)。低氧组豚鼠于低压氧舱接受28 d(海拔5 000 m、每天6 h)的低压低氧处理。胶原酶方法急性分离心肌细胞。细胞动缘探测系统测定过氧化氢对各组细胞收缩力的变化。生化方法测定各组丙二醛(MDA)、乳酸脱氢酶(LDH)及超氧化物歧化酶(SOD)和过氧化氢酶(CAT)的变化。结果:①过氧化氢可使心肌细胞出现收缩、舒张紊乱,但IHH处理使其出现的潜伏期明显延长。②给予过氧化氢(300μmol/L,10 min)使来自于non-IHH或IHH的心肌细胞LDH、MDA含量均明显增加,但IHH心肌细胞LDH、MDA含量明显低于non-IHH心肌细胞的LDH、MDA含量。③经IHH处理组的心肌细胞SOD,CAT活性均明显高于non-IHH组。给予过氧化氢使来自于non-IHH或IHH的心肌细胞SOD,CAT活性均明显降低,但IHH心肌细胞SOD,CAT活性明显高于non-IHH心肌细胞的SOD,CAT活性。结论:IHH具有对抗过氧化氢心肌细胞损伤的作用,可能与其增强抗氧化酶活性有关。     

Adaptation to chronic hypobaric hypoxia and sexual hormones

The role of the gonads and their hormones on body weight was studied in rats of both sexes submitted to chronic hypoxia and their controls at sea level atmospheric pressure. Intact rats were exposed to either 4 700 or 6 000 m simulated altitude in a hypopressure chamber. Castrated rats and castrated rats daily injected with either 0.5 mg of testosterone or 20 microgram of estradiol or the vehicle, were exposed to the higher altitude. The rat weight was recorded for a period of at least eight weeks. All groups of hypoxic male animals increased their weight significantly less than the controls at sea level. Also in castrated females and in castrated injected with testosterone or the vehicle the same pattern of weight curves was observed. On the contrary, groups of intact females and castrated females injected with estradiol did not show significant differences between hypoxic and control animals. Only in a group of smaller intact females (50-80 g) the body weight increase was significantly diminished by exposure to either 4 700 or 6 000 m simulated altitude.     

Protective effects of polyunsatutared fatty acids supplementation against testicular damage induced by intermittent hypobaric hypoxia in rats

Background

Intermittent hypobaric hypoxia (IHH) induces changes in the redox status and structure in rat testis. These effects may be present in people at high altitudes, such as athletes and miners. Polyunsaturated fatty acids (PUFA) can be effective in counteracting these oxidative modifications due to their antioxidants properties. The aim of the work was to test whether PUFA supplementation attenuates oxidative damage in testis by reinforcing the antioxidant defense system. The animals were divided into four groups (7 rats per group): normobaric normoxia (~750 tor; pO2 156 mmHg; Nx); Nx + PUFA, supplemented with PUFA (DHA: EPA = 3:1; 0.3 g kg⁻¹ of body weight per day); hypoxic hypoxia (~428 tor; pO2 90 mmHg; Hx) and, Hx + PUFA. The hypoxic groups were exposed in 4 cycles to 96 h of HH followed by 96 h of normobaric normoxia for 32 days. Total antioxidant capacity (FRAP) and lipid peroxidation (malondialdehyde, MDA) in plasma and reduced (GSH)/oxidized glutathione (GSSG) ratio, tissue lipid peroxidation (TBARS) and antioxidant enzymes activity were assessed at the end of the study in testis. Also, SIRTUIN 1 and HIF-1 protein expression in testis were determined.

Results

IHH increased lipid peroxidation in plasma and HIF-1 protein levels in testis. In addition, IHH reduced FRAP levels in plasma, antioxidant enzymes activities and SIRTUIN 1 protein levels in testis. PUFA supplementation attenuated these effects, inducing the increases in FRAP, in the antioxidant enzymes activity and HIF-1 levels.

Conclusions

These results suggest that the IHH model induces a prooxidant status in plasma and testis. The molecular protective effect of PUFA may involve the induction of an antioxidant mechanism.     

Effects of acute hypobaric hypoxia on acid-base status of fowl blood

Arterial blood Po/, Pco2, lactate levels and Cl- ion concentration as well as pH were measured on the time course in chickens (Gallus domesticus) as they settled in normoxic conditions and during exposure to acute hypobaric hypoxia (Pb = 450 Torr). Hypoxia provoked at first a CO2 increased output from blood and a brief stage of deep metabolic acidosis during which lactate levels suddenly increased. This acidosis was then compensated producing a return to the initial pH and a decrease in [HCO3-] + [CO3(2-)] after 60 min. Subsequently respiratory alkalosis associated with an increase in [HCO-3] + [CO3(2-)], a decrease in cl- ion concentration and a small decrease in lactate levels were observed. Prolonged exposure to hypoxia (16 h) resulted in a new return to the initial pH, a decrease in concentration of [HCO3-] + [CO3(2-)] and a high lactate level. The hematocrit value, the Hb concentration, and the plasma Na+, K+, Ca++ and Mg++ ion concentration did not change significantly.     

慢性间断性低氧大鼠认知功能和脑胆碱能神经元的进行性变化

目的：探讨慢性间断性低氧（CIH）大鼠认知功能的进行性变化及其与脑胆碱能神经元变化的关系。方法：成年雄性SD大鼠40只,随机均分为对照组、慢性间断性低氧1,3,5周组。应用Morris水迷宫检测认知功能的变化;利用HE染色在光镜下计数前额叶皮层和海马坏死神经元数;利用免疫组化方法检测前额叶皮层和海马胆碱乙酰转移酶（ChAT）阳性表达。结果：CIH各组大鼠学习记忆能力呈进行性下降趋势;与对照组比较,CIH5w组出现明显学习记忆功能障碍（P〈0.05）。CIH各组前额叶皮层和海马变性坏死神经元数增多,且随低氧时间延长,上述改变呈慢性进行性加重趋势。CIH各组前额叶皮层和海马ChAT阳性表达逐渐下降;与对照组比较,CIH3w组和CIH5w组前额叶皮层和海马ChAT阳性表达明显减少,差异具有显著性（P〈0.05）。结论：慢性间断性低氧大鼠认知功能进行性下降与前额叶皮层和海马神经元病理性损伤、ChAT表达进行性减少有关。     

Brain adaptation to chronic hypobaric hypoxia in rats.

Rats were exposed to hypobaric hypoxia (0.5 atm) for up to 3 wk. Hypoxic rats failed to gain weight but maintained normal brain water and ion content. Blood hematocrit was increased by 48% to a level of 71% after 3 wk of hypoxia compared with littermate controls. Brain blood flow was increased by an average of 38% in rats exposed to 15 min of 10% normobaric oxygen and by 23% after 3 h but was not different from normobaric normoxic rats after 3 wk of hypoxia. Sucrose space, as a measure of brain plasma volume, was not changed under any hypoxic conditions. The mean brain microvessel density was increased by 76% in the frontopolar cerebral cortex, 46% in the frontal motor cortex, 54% in the frontal sensory cortex, 65% in the parietal motor cortex, 68% in the parietal sensory cortex, 68% in the hippocampal CA1 region, 57% in the hippocampal CA3 region, 26% in the striatum, and 56% in the cerebellum. The results indicate that hypoxia elicits three main responses that affect brain oxygen availability. The acute effect of hypoxia is an increase in regional blood flow, which returns to control levels on continued hypoxic exposure. Longer-term effects of continued moderate hypoxic exposure are erythropoiesis and a decrease in intercapillary distance as a result of angiogenesis. The rise in hematocrit and the increase in microvessel density together increase oxygen availability to the brain to within normal limits, although this does not imply that tissue PO2 is restored to normal.